公開日期 | 標題 | 作者 | 來源出版物 | scopus | WOS | 全文 |
1991 | High Performance W-Band Low-Noise Pseudomorphic Ingaas Hemt MMIC Amplifiers | Tan, K.L.; Wang, H.; Streit, D.C.; Liu, P.H.; Dia, R.M.; Han, A.C.; Garske, D.; Bui, S.; Liu, J.K.; Lin, T.S.; Dow, G.S.; Chow, P.D.; Berenz, J.; HUEI WANG | Electronics Letters | | | |
1993 | A High-Performance Monolithic Q-Band InP-Based HEMT Low-Noise Amplifier | Lo, D.C.W.; Lai, R.; Dia, R.M.; Streit, D.C.; Allen, B.; Wang, H.; Liu, P.-H.; Berenz, J.; Tan, K.L.; Velebir, J.; HUEI WANG | IEEE Microwave and Guided Wave Letters | | | |
1992 | High-Performance W-Band Monolithic Pseudomorphic InGaAs HEMT LNA’s and Design/Analysis Methodology | Wang, H.; Dow, G.S.; Allen, B.R.; Ton, T.-N.; Tan, K.L.; Chang, K.W.; Chen, T.-H.; Berenz, J.; Lin, T.S.; Liu, P.-H.; Streit, D.C.; Bui, S.B.; Raggio, J.J.; Chow, P.D.; HUEI WANG | IEEE Transactions on Microwave Theory and Techniques | | | |
1993 | High-Yield W-Band Monolithic HEMT Low-Noise Amplifier and Image Rejection Downconverter Chips | Wang, H.; Chang, K.W.; Ton, T.N.; Biedenbender, M.; Chen, S.T.; Lee, J.; Dow, G.S.; Tan, K.L.; Allen, B.R.; HUEI WANG | IEEE Microwave and Guided Wave Letters | | | |
1992 | A manufacturable high performance 0.1-μm pseudomorphic AlGaAs/InGaAs HEMT process for W-band MMICs | Tan, K.L.; Liu, P.H.; Streit, D.C.; Dia, R.; Han, A.C.; Freudenthal, A.; Velebir, J.; Stolt, K.; Lee, J.; Biedenbender, M.; Lai, R.; Wang, H.; Allen, B.; HUEI WANG | GaAs IC Symposium Technical Digest 1992 | | | |
1994 | Monolithic 23.5 to 94 GHz Frequency Quadrupler Using 0.1 Pseudomorphic μm AlGaAs/InGaAs/GaAs HEMT Technology | Chang, K.W.; Lo, D.C.W.; Tan, K.L.; Streit, D.; Dow, G.S.; Allen, B.R.; HUEI WANG | IEEE Microwave and Guided Wave Letters | 15 | 10 | |
1992 | Monolithic W-band VCOs using pseudomorphic AlGaAs/InGaAs/GaAs HEMTs | Wang, H.; Chang, K.W.; Chen, T.H.; Tan, K.L.; Dow, G.S.; Allen, B.; Berenz, J.; HUEI WANG | GaAs IC Symposium Technical Digest 1992 | | | |
1994 | A Monolithically Integrated 120-GHz InGaAs/InAlAs/InP HEMT Amplifier | Lai, R.; Wang, H.; Tan, K.L.; Streit, D.C.; Liu, P.H.; Velebir, J.; Chen, S.; Berenz, J.; Pospieszalski, M.W.; HUEI WANG | IEEE Microwave and Guided Wave Letters | | | |
2020 | Newton methods for convolutional neural networks | CHIH-JEN LIN ; Wang, C.-C.; Tan, K.L.; CHIH-JEN LIN | ACM Transactions on Intelligent Systems and Technology | | 0 | |
1996 | Surface and interface analysis of GaSb/ GaAs heterostructures grown by metalorganic magnetron sputtering | Li, K.; Lin, J.; Wee, A.T.S.; Tan, K.L.; Feng, Z.C.; Webb, J.B. | Appl. Surf. Sci | | | |
1997 | Surface and interface analysis of InSb/GaAs | Li, K.; Wee, A.T.S.; Lin, J.; Lee, K.K.; Watt, F.; Tan, K.L.; Feng, Z.C.; Webb, J.B. | Thin Solid Films | | | |
1992 | A w-band image-rejection downconverter | Chang, K.W.; Wang, H.; Ton, T.-N.; Chen, T.-H.; Tan, K.L.; Dow, G.S.; Hayashibara, G.M.; Allen, B.R.; Berenz, J.; Liu, P.-H.; Streit, D.C.; Liu, L.C.; HUEI WANG | IEEE Transactions on Microwave Theory and Techniques | | | |
1991 | A W-Band Monolithic Downconverter | Chang, K.W.; Wang, H.; Tan, K.L.; Bui, S.B.; Chen, T.-H.; Dow, G.S.; Berenz, J.; Ton, T.-N.; Garske, D.C.; Lin, T.S.; Liu, L.C.T.; HUEI WANG | IEEE Transactions on Microwave Theory and Techniques | | | |
1992 | A W-band monolithic InGaAs/GaAs HEMT schottky diode image reject mixer | Ton, T.N.; Chen, T.H.; Chang, K.W.; Wang, H.; Tan, K.L.; Dow, G.S.; Hayashibara, G.M.; Allen, B.; Berenz, J.; HUEI WANG | GaAs IC Symposium Technical Digest 1992 | | | |
1993 | W-band monolithic pseudomorphic AIGaAs/InGaAs/GaAs HEMT CBCPW LNA | Ton, T.-N.; Wang, H.; Chen, S.; Tan, K.L.; Dow, G.S.; Allen, B.R.; Berenz, J.; HUEI WANG | Electronics Letters | | | |
1994 | A W-Band Monolithic, Singly Balanced Resistive Mixer With Low Conversion Loss | Chang, K.W.; Lin, E.W.; Wang, H.; Tan, K.L.; Ku, W.H.; HUEI WANG | IEEE Microwave and Guided Wave Letters | | | |
1995 | A W-Band Source Module Using MMIC's | Chang, K.; Smith, D.; Dow, S.G.; Tan, K.L.; Oki, A.K.; Allen, B.R.; HUEI WANG | IEEE Transactions on Microwave Theory and Techniques | 14 | 10 | |